Issue34

Q. Like et alii, Frattura ed Integrità Strutturale, 34 (2015) 543-553; DOI: 10.3221/IGF-ESIS.34.60 553 [11] Huang, M., Peng, J., Lei, Y., Temperature rising behaviors and absorbing characteristics of titanium ore in microwave field, Journal of Sichuan University: Engineering Science Edition, 39 (2) (2007) 111-115. [12] Ouyang, H., Yang, Z., Xiong, X., et al., Research on the temperature rising curve and fluidizing leaching of ilmenite in microwave field, Mining Metallurgical Engineering, 30 (1) (2010) 73-75. [13] Pan, X., Chen, J., Zhao, M., Zhao, J., Research on temperature rising characteristics of carbon-bearing manganese carbonate powder after microwave heating, New Technology & New Process, 1 (2008) 55-58. [14] Omran, M., Fabritius, T., Mattila, R., Thermally assisted liberation of high phosphorus oolitic iron ore: A comparison between microwave and conventional furnaces, Powder Technology, 269 (2015) 7-14. [15] Guo, S., Chen, G., Microwave assisted grinding of ilmenite ore, Transactions of Nonferrous Metals Society of China, 21 (9) (2011) 2122-2126 [16] Cui, H., Chen, J., Feng, X., Li, N., Numerical simulation for temperature rising curve of carbon-bearing chromium powder in microwave field, China Metallurgy, 17 (1) (2007) 30-35. [17] Jones, D.A., Kingman, S.W., Whittles, D.N., Understanding microwave assisted breakage, Minerals Engineering, 18 (2005) 659-669. [18] Wang, G., Radziszewski, P., Ouellet, J., Particle modeling simulation of thermal effects on ore breakage. Computational Materials Science, 43 (2008) 892-901. [19] Wang, Y., Djordjevic, N., Thermal stress FEM analysis of rock with microwave energy, International Journal of Mineral Processing, 130 (2014) 74-81. [20] Ali, A.Y., Bradshaw, S.M., Quantifying damage around grain boundaries in microwave treated ores, Chemical Engineering and Processing, 48 (2009) 1566-1573. [21] Whittles, D.N., Kingman, S.W., et al., Application of numerical modelling for prediction of the influence of power density on microwave-assisted breakage International Journal of Mineral Processing, 68 (2003)71-91. [22] Chen, T.T., Dutrizac, J.E., Hague, K.E., et al., The relative transparency of minerals to microwave radiation, Canadian Metallurgical Quarterly, 23 (3) (1984) 349-354. [23] Touloukian, Y. S., Judd, W.R., Physical properties of rocks and minerals, McGraw-Hill Book Company, New York, (1981) 56-63. [24] Clark, S. P., Handbook of physical constants. Geological Society of America, New York, (1966) 415-436. [25] Bass, J.D., Elasticity of minerals, glasses, and melts. In: T.J. Ahrens, Editor, Handbook of Physical Constants, American Geophysical Union, Washington, DC, (1995) 45-63.